DE102006036691B4 - check valve - Google Patents

Abstract

Check valve, consisting of a housing, a bore and a liftable valve body which is spring-loaded and rests sealingly on a valve seat, the bore being designed as a stepped bore and the bore with the smaller diameter having the valve seat and the bore with the larger diameter receiving the liftable valve body , a ball being provided as the valve body, which is guided in the bore through at least two guide webs, characterized in that a retaining element (6) arranged in the end region of the bore (17) holds the ball captive and on the one hand directly acts on the ball resiliently and on the other hand a single radially inwardly extending projection (10) serves to limit the stroke of the valve body (5), and the retaining element (6) has at least one radially inwardly extending spring tongue (7) which exerts a spring tension on the valve body (5) and makes it softer Spring identification, circular or spiral excl is designed, wherein the holding element (6) is firmly connected to the housing (2) at the outer edge.

Description

The invention relates to a check valve according to the preamble of claim 1.

There are already known check valves ( DE 40 25 488 C2 ), in which a liftable valve member is provided, wherein at least in the valve seat portion, a spherical valve body is provided. A closing spring acts under prestress on this valve body, and furthermore a movable cylindrical part and a fixedly arranged cylindrical part create an annular space which changes in volume from the movement of the internal parts. Via a throttle bore thus the valve activity can be damped. Check valves of this type, in particular with a valve ball or a ball segment, work in principle very precise, but disadvantageous is the large moving mass that reacts too slow for a high-frequency Ventilbeaufschlagung. To avoid impact noises, therefore, such a check valve is preferably damped.

In addition, check valves (eg. DE 197 39 904 A1 ), in which a ball is arranged in a housing and is biased by a spring. The stroke of the ball is dependent on the block length of the coil spring.

In addition, this design requires a large amount of space and is unsuitable for a fully automatic assembly alone by the number of items and their shape.

The object of the invention is to provide a low-noise, high-frequency controllable check valve, which has a minimum of space and is inexpensive to produce even under high-volume conditions.

This object is solved by the features of patent claim 1.

The advantage here is that a ball is used as a valve body and this ball is precisely guided between the guide webs. The holding element, in the form of an internally perforated contoured spring washer, acts upon the ball in such a way that, on the one hand, it can spring open and, on the other hand, it is simultaneously limited in its stroke. The stroke limitation of the ball takes place for reasons of noise also springy. It is advantageous in this case that the spring tongue is also an integral part of the holding element, so that let the projection, the spring tongue and the holding element can be made of a single component.

According to a further feature, it is provided that the guide webs are arranged distributed uniformly over the circumference of the bore.

To achieve a throttle-free as possible flow is provided that the guide webs extend axially only over a portion of the bore. It is advantageous in this case that the guide webs are free below the holding element, so that a uniform flow of the check valve can take place.

According to a further embodiment, it is provided that the holding element is fixed in a form-fitting manner in the housing. It is advantageous here that the positive connection of the holding element is formed by material parts of the housing via caulking.

The holding element can not only be positively fixed in the valve housing, but also there is the possibility that the holding element is fixed to the housing by gluing. It is advantageous here that an adhesion can take place, a welding process or soldering process is also conceivable.

According to a further embodiment, it is provided that the housing is an undercut-free, molded part.

A further embodiment provides that the guide webs of the housing relative to the retaining element are at least partially released.

It is advantageous in this case that the housing is made by sintering or press technology.

According to a further feature, it is provided that the holding element is a disc-shaped structure which on the one hand lets through a flowing medium and on the other hand resiliently acts on the valve body in the center.

According to a further essential feature, it is provided that the holding element has a circularly closed outer region, starting from which a spring tongue extends into the center.

Another feature provides that the holding element is produced by punching technology, wherein the holding element is formed from a spring wire.

In a further embodiment it is provided that the holding element has a pressure-resistant for caulking outside area.

It is advantageous that the holding element is fixed to the housing via a Krallverbindung.

According to a further feature, it is provided that the housing has on at least one end face a cutting edge for tight fastening in a receiving bore.

Preferred embodiments are shown schematically in the figures.

It shows:

1 , u 2 Check valve in section

3 to 6 Representations of a non-inventive check valve

7 to 7d various forms of fixation of the retaining element relative to the valve housing

8th to 10 Inventive retaining element embodiments.

From the 1 is the check valve 1 shown with a housing 2 , which preferably without undercuts, so molded, without any machinable rework, can be made tool falling. As a manufacturing method in this case, a sintering or pressing technique is preferable.

The housing 2 has a central bore 3 at the transition to the hole 17 the valve seat 4 forms. The flow bore 3 in the area of its valve seat 4 is through the as a valve body 5 trained ball closed. Above the valve body 5 is a holding element 6 in the form of an internally contoured spring washer arranged so that they on the one hand at the outer edge fixed to the housing 2 is connected and on the other hand, the valve body 5 directly or at least approximately spring applied.

The housing 2 has a cutting edge 18 on at least one end face, which serves the tight attachment in a receiving bore.

2 shows that in 1 illustrated check valve 1 in the open position, wherein the valve body 5 by the flow through the bore 3 from the valve seat 4 , against the spring force of the retaining element 6 or its spring tongue 7 takes off.

The valve body 5 is doing over guide bars 8th guided centered, the flow flows around at least partially on the circumference via longitudinal channels 9 the valve body 5 and then flows through the remaining opening of the retaining element 6 , wherein the valve body 5 through three protrusions 10 of the holding element 6 is limited in his stroke.

The end stop of the valve body 5 can be resilient, so avoid squeak noise. To ensure a throttle-free flow as possible, especially in the smallest sizes of these check valve designs, the guide webs 8th below the retaining element 6 through a clearance 11 optional. The shape can be designed individually.

3 shows the top view of in 1 illustrated check valve 1 , with a housing 2 and a holding element 6 , which is in the form of a flat spring washer. The holding element 6 is designed flat, as this offers a handling as bulk material, and thus mechanically without consideration of an angular offset or the respective support side in a centering 12 of the housing 2 can be inserted. The holding element 6 has a spring tongue 7 on that the valve body 5 resiliently applied, wherein the three projections 10 the valve body 5 serve as an end stop in the axial direction. Depending on the spring stiffness of the spring tongue 7 can the projections 10 also completely omitted, since the maximum expulsion of the valve body 5 often very low due to the current. The spring tongue 7 then stops the valve body 5 solely about the spring stiffness.

The opening pressure of the check valve and its stroke can by the holding element 6 whose inner contour and / or thickness are varied accordingly. The holding element 6 is with the case 2 firmly connected, z. B. by positive engagement, Verkrallung, bonding or welding.

From the 4 shows an exploded view, it shows an extremely miniaturized check valve 1 with the housing 2 , the valve body 5 and the holding element 6 , For flow optimization have the guide webs 8th in the upper area a clearance 11 , so that the holding element without fixed positioning in the centering 12 of the housing 2 can be used.

5 shows the fully assembled check valve 1 , wherein the retaining element 6 about local caulking 13 with the housing 2 is firmly connected.

6 shows the holding element 6 together with the valve body 5 in a position in which the valve body 5 the spring tongue 7 acted upon so that the projections 10 used as an end stop.

From the 7 to 7d are different versions of a fastening of the retaining element 6 opposite the housing 2 shown. 7 shows that in 1 illustrated principle of fixing the retaining element 6 opposite the housing 2 by a local caulking. An enlargement of this local caulking 13 is the 7a refer to. These local caulking can in several places over the circumference of the housing 2 be arranged distributed.

7b shows a housing 2 , in which over the entire circumference a caulking, so a Rundumemmstemmung was made. A welded or glued connection 15 is the 7c refer to.

From the 7d is a holding element 6 can be seen, in which the outer edge has an angled portion by pressing in the housing 2 a claw connection 16 forms. The holding element 6 So is by a corresponding frictional engagement in the spigot 12 of the housing 2 fixed in a form-fitting manner.

8th shows a holding element 6 located in the center with its spring tongue 7 on the valve body 5 resiliently supported.

9 shows the top view of the retaining element 6 out 8th , A lead 10 that ultimately the valve body 5 limited stroke, can also be omitted depending on the spring stiffness. Depending on the design of the spring tongue 7 it comes anyway, if desired early, to a contact of the valve body 5 with the holding element 6 so that it can be stroke limited as desired. The spring tongue 7 is here due to a softer spring stiffness circular or spiral running.

10 shows a holding element 6 made of spring steel wire. The outer edge is circular and designed for caulking pressure resistant.

LIST OF REFERENCE NUMBERS

1

check valve

2

casing

3

Anströmbohrung

4

valve seat

5

valve body

6

retaining element

7

spring tongue

8th

guide webs

9

longitudinal channels

10

projections

11

clearance

12

centering

13

local caulking

14

Rundumverstemmung

15

Welding or adhesive connection

16

claw connection

17

drilling

18

cutting edge

Claims (16)

Check valve, consisting of a housing, a bore and a liftable valve body, which is spring-biased and sealingly abuts a valve seat, wherein the bore is formed as a stepped bore and the smaller diameter bore has the valve seat and the larger diameter bore accommodates the liftable valve body , wherein a ball is provided as the valve body, which is guided in the bore by at least two guide webs, characterized in that a in the end region of the bore ( 17 ) arranged holding element ( 6 ) holds the ball captive and on the one hand acts directly on the ball resiliently and on the other hand, a single radially inwardly extending projection ( 10 ) as stroke limitation of the valve body ( 5 ), and the retaining element ( 6 ) at least one radially inwardly extending spring tongue ( 7 ), which has a spring tension on the valve body ( 5 ) and designed for softer spring detection, circular or spiral, wherein the retaining element ( 6 ) at the outer edge fixed to the housing ( 2 ) connected is. Check valve according to claim 1, characterized in that the guide webs ( 8th ) over the circumference of the bore ( 17 ) are arranged evenly distributed. Check valve according to claim 1, characterized in that the guide webs ( 8th ) axially only over a portion of the bore ( 17 ). Check valve according to claim 1, characterized in that the retaining element ( 6 ) in the housing ( 2 ) is positively fixed. Check valve according to claim 4, characterized in that the positive connection of the holding element ( 6 ) through material parts of the housing ( 2 ) is formed via a caulking. Check valve according to claim 1, characterized in that the retaining element ( 6 ) with the housing ( 2 ) is fixed by a welded and / or glued connection. Check valve according to claim 1, characterized in that the housing ( 2 ) is an undercut-free, molded part. Check valve according to claim 1, characterized in that the guide webs ( 8th ) of Housing ( 2 ) relative to the retaining element ( 6 ) are at least partially exempt. Check valve according to claim 1, characterized in that the housing ( 2 ) is produced by sintering or press technology. Check valve according to claim 1, characterized in that the retaining element ( 6 ) is a disc-shaped structure which on the one hand passes a flowing medium and on the other hand in the center of the valve body ( 5 ) resiliently acted upon. Check valve according to claim 1, characterized in that the retaining element ( 6 ) has a circularly closed outer region, from which the spring tongue ( 7 ) extends to the center. Check valve according to claim 1, characterized in that the retaining element ( 6 ) is produced by punching technology. Check valve according to claim 1, characterized in that the retaining element ( 6 ) is formed from a spring wire. Check valve according to claim 5, characterized in that the retaining element ( 6 ) has an outer region which is pressure-resistant for the caulking. Check valve according to claim 1, characterized in that the retaining element ( 6 ) with the housing 2 is fixed by a Krall connection. Check valve according to claim 1, characterized in that the housing ( 2 ) Has at least one end face a cutting edge for tight attachment in a receiving bore.

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